func assertReadableBlockHeader(t *testing.T, rb ReadableBlockHeader,
bh coin.BlockHeader) {
assert.Equal(t, rb.Version, bh.Version)
assert.Equal(t, rb.Time, bh.Time)
assert.Equal(t, rb.BkSeq, bh.BkSeq)
assert.Equal(t, rb.Fee, bh.Fee)
assert.NotPanics(t, func() {
assert.Equal(t, coin.MustSHA256FromHex(rb.PrevHash), bh.PrevHash)
assert.Equal(t, coin.MustSHA256FromHex(rb.BodyHash), bh.BodyHash)
})
assertJSONSerializability(t, &rb)
}
func assertReadableTransactionHeader(t *testing.T,
rth ReadableTransactionHeader, th coin.TransactionHeader) {
assert.Equal(t, len(rth.Sigs), len(th.Sigs))
assert.NotPanics(t, func() {
for i, s := range rth.Sigs {
assert.Equal(t, coin.MustSigFromHex(s), th.Sigs[i])
}
assert.Equal(t, coin.MustSHA256FromHex(rth.Hash), th.Hash)
})
assertJSONSerializability(t, &rth)
}
func NewDeterministicWalletFromReadable(r *ReadableWallet) Wallet {
if r.Type != DeterministicWalletType {
log.Panic("ReadableWallet type must be Deterministic")
}
if len(r.Entries) != 1 {
log.Panic("Deterministic wallets have exactly 1 entry")
}
seed := coin.MustSHA256FromHex(r.Extra["seed"].(string))
return &DeterministicWallet{
Filename: r.Filename,
Name: r.Name,
Entry: r.Entries.ToWalletEntries().ToArray()[0],
Seed: DeterministicWalletSeed(seed),
}
}
func assertReadableTransactionInput(t *testing.T, rti string, ti coin.SHA256) {
assert.NotPanics(t, func() {
assert.Equal(t, coin.MustSHA256FromHex(rti), ti)
})
assertJSONSerializability(t, &rti)
}
